Research Papers:
Analysis of molecular mechanisms of 5-fluorouracil-induced steatosis and inflammation in vitro and in mice
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Abstract
Judith Sommer1,2,*, Abdo Mahli1,2,*, Kim Freese1,2, Tobias S. Schiergens3, Fulya Suzan Kuecuekoktay2, Andreas Teufel2, Wolfgang E. Thasler3, Martina Müller2, Anja K. Bosserhoff1,4, Claus Hellerbrand1,2
1Institute of Biochemistry (Emil-Fischer-Zentrum), Friedrich-Alexander University Erlangen-Nuremberg, Erlangen, Germany
2Department of Internal Medicine I, University Hospital Regensburg, Germany
3Biobank o.b. HTCR, Department of General Visceral- and Transplantation Surgery, Ludwig-Maximilians-University Munich, Munich, Germany
4Comprehensive Cancer Center Erlangen, CCC Erlangen-EMN; Friedrich-Alexander University Erlangen-Nuremberg, Erlangen, Germany
*These authors have contributed equally to this work
Correspondence to:
Claus Hellerbrand, email: [email protected]
Keywords: 5-FU, steatosis, steatohepatitis, mitochondrial dysfunction
Received: July 18, 2016 Accepted: December 05, 2016 Published: December 30, 2016
ABSTRACT
Chemotherapy-associated steatohepatitis is attracting increasing attention because it heralds an increased risk of morbidity and mortality in patients undergoing surgery because of liver metastases. The aim of this study was to develop in vitro and in vivo models to analyze the pathogenesis of 5-fluorouracil (5-FU)-induced steatohepatitis.
Therefore, primary human hepatocytes and HepG2 hepatoma cells were incubated with 5-FU at non-toxic concentrations up to 24 h. Furthermore, hepatic tissue of C57BL/6N mice was analyzed 24 h after application of a single 5-FU dose (200 mg/kg body weight). In vitro, incubation with 5-FU induced a significant increase of hepatocellular triglyceride levels. This was paralleled by an impairment of mitochondrial function and a dose- and time-dependently increased expression of fatty acid acyl-CoA oxidase 1 (ACOX1), which catalyzes the initial step for peroxisomal β-oxidation. The latter is known to generate reactive oxygen species, and consequently, expression of the antioxidant enzyme heme oxygenase 1 (HMOX1) was significantly upregulated in 5-FU-treated cells, indicative for oxidative stress. Furthermore, 5-FU significantly induced c-Jun N-terminal kinase (JNK) activation and the expression of pro-inflammatory genes IL-8 and ICAM-1. Also in vivo, 5-FU significantly induced hepatic ACOX1 and HMOX1 expression as well as JNK-activation, pro-inflammatory gene expression and immune cell infiltration. In summary, we identified molecular mechanisms by which 5-FU induces hepatocellular lipid accumulation and inflammation. Our newly developed models can be used to gain further insight into the pathogenesis of 5-FU-induced steatohepatitis and to develop therapeutic strategies to inhibit its development and progression.
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